# Packages matching: installed
# Name # Installed # Synopsis
base-bigarray base
base-num base Num library distributed with the OCaml compiler
base-ocamlbuild base OCamlbuild binary and libraries distributed with the OCaml compiler
base-threads base
base-unix base
camlp5 7.14 Preprocessor-pretty-printer of OCaml
conf-findutils 1 Virtual package relying on findutils
conf-perl 2 Virtual package relying on perl
coq 8.8.0 Formal proof management system
num 0 The Num library for arbitrary-precision integer and rational arithmetic
ocaml 4.02.3 The OCaml compiler (virtual package)
ocaml-base-compiler 4.02.3 Official 4.02.3 release
ocaml-config 1 OCaml Switch Configuration
ocamlfind 1.9.6 A library manager for OCaml
# opam file:
opam-version: "2.0"
maintainer: "Ralf Jung <jung@mpi-sws.org>"
authors: "The std++ team"
license: "BSD-3-Clause"
homepage: "https://gitlab.mpi-sws.org/iris/stdpp"
bug-reports: "https://gitlab.mpi-sws.org/iris/stdpp/issues"
dev-repo: "git+https://gitlab.mpi-sws.org/iris/stdpp.git"
synopsis: "An extended \"Standard Library\" for Coq"
description: """
The key features of this library are as follows:
- It provides a great number of definitions and lemmas for common data
structures such as lists, finite maps, finite sets, and finite multisets.
- It uses type classes for common notations (like `โ
`, `โช`, and Haskell-style
monad notations) so that these can be overloaded for different data structures.
- It uses type classes to keep track of common properties of types, like it
having decidable equality or being countable or finite.
- Most data structures are represented in canonical ways so that Leibniz
equality can be used as much as possible (for example, for maps we have
`m1 = m2` iff `โ i, m1 !! i = m2 !! i`). On top of that, the library provides
setoid instances for most types and operations.
- It provides various tactics for common tasks, like an ssreflect inspired
`done` tactic for finishing trivial goals, a simple breadth-first solver
`naive_solver`, an equality simplifier `simplify_eq`, a solver `solve_proper`
for proving compatibility of functions with respect to relations, and a solver
`set_solver` for goals involving set operations.
- It is entirely dependency- and axiom-free.
"""
tags: [
"date:2021-11-05"
"logpath:stdpp"
]
depends: [
"coq" { (>= "8.10.2" & < "8.15~") | (= "dev") }
]
patches: ["ocamlrunparam.patch"]
build: [make "-j%{jobs}%"]
install: [make "install"]
url {
src:
"https://gitlab.mpi-sws.org/iris/stdpp/-/archive/coq-stdpp-1.6.0.tar.gz"
checksum:
"sha512=47de4f889a1eebce066e03512c19731a5e52f4f3bbd46e158ac00a693d983a0c8f93ec45692b3f8d16f4522296e18100ebe711cf854d50b03731bfa1914362b8"
}
trueDry install with the current Coq version:
opam install -y --show-action coq-stdpp.1.6.0 coq.8.8.0[NOTE] Package coq is already installed (current version is 8.8.0).
The following dependencies couldn't be met:
- coq-stdpp -> coq >= dev -> ocaml >= 4.05.0
base of this switch (use `--unlock-base' to force)
- coq-stdpp -> coq >= dev -> coq-core -> ocaml >= 4.09.0
base of this switch (use `--unlock-base' to force)
No solution found, exiting
Dry install without Coq/switch base, to test if the problem was incompatibility with the current Coq/OCaml version:
opam remove -y coq; opam install -y --show-action --unlock-base coq-stdpp.1.6.0truetrueNo files were installed.
true